Near-field communication device with antenna on elongated printed interconnect

1. A near-field communication (NFC) tag, comprising: an integrated circuit comprising at least one external interface, the integrated circuit comprising a logic section that responds to a radio-frequency identification (RFID) interrogation; an interconnect having a first end coupled to the external interface of the integrated circuit, the interconnect comprising a flexible substrate and printed conductive lines, the interconnect elongated a distance of at least 0.5 meters along a first direction; and an antenna on a second end of the interconnect, the second end opposed to the first end along the first direction, the antenna electrically coupled to the conductive lines of the interconnect and operable to send and receive wireless signals of the RFID interrogation and communicate the wireless signals with the integrated circuit via the conductive lines.

2. The NFC tag of claim 1 , further comprising a sensor on the second end of the interconnect, the sensor coupled to the integrated circuit via the conductive lines of the interconnect and operable to send sensor signals to the integrated circuit.

3. The NFC tag of claim 1 , further comprising: a second interconnect coupled to the external interface of the integrated circuit, the second interconnect comprising a second flexible substrate and second printed conductive lines, the interconnect elongated in a second direction different than the first direction; and a second antenna on a distal end of the second interconnect, the second antenna electrically coupled to the second conductive lines of the second interconnect and operable to send and receive wireless signals of the RFID interrogation and communicate the wireless signals with the integrated circuit via the second conductive lines.

4. The NFC tag of claim 3 , further comprising a first sensor on the second end of the interconnect and a second sensor on the distal end of the second interconnect, the first and second sensors coupled to the integrated circuit via the respective conductive lines and second conductive lines and operable to send multiple sensor signals to the integrated circuit, the multiple sensor signals used to determine a three-dimensional sensor reading.

5. The NFC tag of claim 3 , wherein the antenna and the second antenna are separated by a distance greater than a transmission distance of an RFID interrogating device.

6. The NFC tag of claim 3 , wherein the integrated circuit is configured to: detect that one of the antenna and the second antenna received the RFID interrogation; and couple only the detected antenna to the external interface before sending a response to the RFID interrogation, wherein coupling only the detected antenna prevents interference with the response sent to an interrogating device.

7. The NFC tag of claim 1 , wherein the antenna is printed on the interconnect.

8. A near-field communication (NFC) tag, comprising: an integrated circuit comprising at least one external interface, the integrated circuit comprising a logic section that responds to a radio-frequency identification (RFID) interrogation; an interconnect having a first end coupled to the external interface of the integrated circuit, the interconnect comprising a flexible substrate and printed conductive lines, the interconnect elongated in a first direction; an antenna on a second end of the interconnect, the second end opposed to the first end along the first direction, the antenna electrically coupled to the conductive lines of the interconnect and operable to send and receive wireless signals of the RFID interrogation and communicate the wireless signals with the integrated circuit via the conductive line; a second interconnect coupled to the external interface of the integrated circuit, the second interconnect comprising a second flexible substrate and second printed conductive lines, the interconnect elongated in a second direction different than the first direction; a second antenna on a distal end of the second interconnect, the second antenna electrically coupled to the second conductive lines of the second interconnect and operable to send and receive wireless signals of the RFID interrogation and communicate the wireless signals with the integrated circuit via the second conductive lines; and first and second switching devices in series with the antenna and the second antenna, the integrated circuit coupled to the switching devices and operable to selectively connect the antenna and the second antenna to the external interface of the integrated circuit.

9. The NFC tag of claim 8 , wherein the logic section is configured to: determine a selected one of the antenna and the second antenna received the RFID interrogation; and via the first and second switching devices, couple only the selected one antenna to the external interface before sending a response to the RFID interrogation.

10. The NFC tag of claim 8 , further comprising a first sensor on the second end of the interconnect and a second sensor on the distal end of the second interconnect, the first and second sensors coupled to the integrated circuit via the respective conductive lines and second conductive lines and operable to send multiple sensor signals to the integrated circuit, the multiple sensor signals used to determine a three-dimensional sensor reading.

11. The NFC tag of claim 8 , wherein the antenna and the second antenna are separated by a distance greater than a transmission distance of an RFID interrogating device.

12. The NFC tag of claim 8 , wherein the integrated circuit is configured to: detect that one of the antenna and the second antenna received the RFID interrogation; and couple only the detected antenna to the external interface before sending a response to the RFID interrogation, wherein coupling only the detected antenna prevents interference with the response sent to an interrogating device.

13. An assembly comprising: a cargo unit; and a near-field communication (NFC) tag attached to the cargo unit, the NFC tag comprising: an integrated circuit comprising at least one external interface, the integrated circuit comprising a logic section that responds to a radio-frequency identification (RFID) interrogation; two or more elongated interconnects having first ends coupled to the external interface of the integrated circuit and second ends opposed to the first ends, the interconnects comprising flexible substrates and printed conductive lines that extend from the first to second ends, the second ends located on respective two or more different sides of the cargo unit; and two or more antennas on the second ends of the respective two or more interconnects, the antenna electrically coupled to the conductive lines of the interconnect and operable to send and receive wireless signals of the RFID interrogation and communicate the wireless signals with the integrated circuit via the conductive lines, wherein an activation of a only selected one of the two or more antennas on a selected side of the two or more sides of the cargo causes the RFID interrogation to occur.

14. The assembly of claim 13 , further comprising two or more sensors on the second ends of the respective two or more interconnects, the two or more sensors coupled to the integrated circuit via the conductive lines of the respective two or more interconnects and operable to send multiple sensor signals to the integrated circuit, the multiple sensor signals used to determine a three-dimensional sensor reading.

15. The assembly of claim 13 , further comprising two or more switching devices in series with the respective two or more antennas, the integrated circuit coupled to the two or more switching devices and operable to selectively connect the respective two or more antennas to the external interface of the integrated circuit.

16. The assembly of claim 13 , wherein the two or more interconnects are each at least 0.5 meters long.

17. The assembly of claim 13 , wherein the two or more antennas are printed on the respective two or more interconnects.

18. The assembly of claim 13 , further comprising a pallet to which the cargo unit is attached, and wherein the integrated circuit is located between the pallet and the cargo unit.

19. The assembly of claim 13 , wherein the two or more antennas are separated by a distance greater than a transmission distance of the interrogating device.

20. The assembly of claim 13 , wherein the integrated circuit is configured to: determine that a subset of the two or more antennas received the RFID interrogation; and couple only the subset to the external interface before sending a response to the RFID interrogation, wherein coupling only the subset prevents interference with the response sent to an interrogating device.